OBJECT: The object of this study was to propose an alternative procedure to the classic decompressive hemicraniectomy using an "in-window" craniotomy and a "bridgelike" duraplasty. METHODS: The authors performed a large, almost rectangular craniotomy involving the frontal, temporal, and parietal bones and part of the occipital squama in 5 patients. The dura mater is opened and its area is enlarged using a rectangular dural patch of the surgeon's choice in the form of a bridge between the anterior and posterior dural edges. With a vertical cut, the bone flap is divided into 2 similarly sized pieces that function as "window lids." The outer frontal and occipital sides of the bone are tied to the skull border at 2 points to function as a hinge joint. The angle of the bone cut must be beveled outward (inclination ~ 45° of the bone drill or saw) to allow the bone flap to rest on the adjacent skull and prevent its slippage toward the intracranial cavity. RESULTS: The above procedures were performed with effective control of intracranial hypertension due to cerebral venous sinus thrombosis, brain trauma, intracerebral hematoma, or malignant cerebral ischemia. CONCLUSIONS: Decompressive surgery, which uses an in-window craniotomy that gradually opens according to the intracranial pressure, is an alternative solution for deploying autologous material. The procedure has the advantage of obviating the need for a second surgical procedure to close the bone defect, and thus preventing the metabolic cerebral impairment associated with the absence of an overlying skull.
OBJECT: The object of this study was to propose an alternative procedure to the classic decompressive hemicraniectomy using an "in-window" craniotomy and a "bridgelike" duraplasty. METHODS: The authors performed a large, almost rectangular craniotomy involving the frontal, temporal, and parietal bones and part of the occipital squama in 5 patients. The dura mater is opened and its area is enlarged using a rectangular dural patch of the surgeon's choice in the form of a bridge between the anterior and posterior dural edges. With a vertical cut, the bone flap is divided into 2 similarly sized pieces that function as "window lids." The outer frontal and occipital sides of the bone are tied to the skull border at 2 points to function as a hinge joint. The angle of the bone cut must be beveled outward (inclination ~ 45° of the bone drill or saw) to allow the bone flap to rest on the adjacent skull and prevent its slippage toward the intracranial cavity. RESULTS: The above procedures were performed with effective control of intracranial hypertension due to cerebral venous sinus thrombosis, brain trauma, intracerebral hematoma, or malignant cerebral ischemia. CONCLUSIONS: Decompressive surgery, which uses an in-window craniotomy that gradually opens according to the intracranial pressure, is an alternative solution for deploying autologous material. The procedure has the advantage of obviating the need for a second surgical procedure to close the bone defect, and thus preventing the metabolic cerebral impairment associated with the absence of an overlying skull.
Authors: Elena I Fomchenko; Emily J Gilmore; Charles C Matouk; Jason L Gerrard; Kevin N Sheth Journal: Curr Treat Options Neurol Date: 2018-07-18 Impact factor: 3.598
Authors: D James Cooper; Jeffrey V Rosenfeld; Lynnette Murray; Yaseen M Arabi; Andrew R Davies; Jennie Ponsford; Ian Seppelt; Peter Reilly; Eveline Wiegers; Rory Wolfe Journal: J Neurotrauma Date: 2020-03-01 Impact factor: 5.269